[Baliński, A., Sun, Y. & Dzik, J. 2012. 470-Million-year-old black corals from China. Naturwissenschaften 99, 645–653.10.1007/s00114-012-0947-8]Search in Google Scholar
[Barrande, J. 1872. Systême silurien du centre de la Bohême. Supplement au vol. I. Trilobites, Crustacés divers et Poissons. Prague–Paris. 34 pls.]Search in Google Scholar
[Berkyová, S. 2009. Lower–Middle Devonian (upper Emsian–Eifelian, serotinus–kockelianus zones) conodont faunas from the Prague Basin, the Czech Republic. Bulletin of Geosciences 84(4), 667–686.10.3140/bull.geosci.1153]Search in Google Scholar
[Berkyová, S., Frýda, J. & Suttner, T.J. 2009. Lower – Middle conodont faunas from Prague Basin. Berichte der Geologischen Bundesanstalt 79, 9–10.]Search in Google Scholar
[Bischoff, G. & Ziegler, W. 1957. Die Conodontenchronologie des Mitteldevons und des tiefsten Oberdevons. Abhandlungen des Hessischen Landesamtes für Bodenforschung 22, 1–136.]Search in Google Scholar
[Braig, F., Haug, J.T., Schädel, M. & Haug, C. 2019. A new thylacocephalan crustacean from the Upper Jurassic lithographic limestones of southern Germany and the diversity of Thylacocephala. Paleodiversity 12(1), 69–87.10.18476/pale.v12.a6]Search in Google Scholar
[Brocke, R., Fatka, O., Lindemann, R.H., Schindler, E. & Ver Straeten, C.A. 2016. Palynology, dacryoconarids and the lower Eifelian (Middle Devonian) Basal Choteč Event: case studies from the Prague and Appalachian basins, 123–169. In Becker, R.T., Königshof, P. & Brett, C.E. (eds) Devonian Climate, Sea Level and Evolutionary Events. Geological Society, London, Special Publications 423, 123–169.10.1144/SP423.8]Search in Google Scholar
[Brown, N. A. & Bron, A.J. 1987. An estimate of the human lens epithelial cell size in vivo. Experimental Eye Research 44(6), 899–906.10.1016/S0014-4835(87)80052-0]Search in Google Scholar
[Briggs, D.E.G., Liu, H.P., McKay, R.M. & Witzke, B.J. 2018. The Winneshiek biota: exceptionally well-preserved fossils in a Middle Ordovician impact crater. Journal of the Geological Society 175, 865–874.10.1144/jgs2018-101]Search in Google Scholar
[Broda, K. & Zatoń, M. 2017. A set of possible sensory system preserved in cuticle of Late Devonian thylacocephalan arthropods from Poland. Historical Biology 29, 1045–1055.10.1080/08912963.2017.1284834]Search in Google Scholar
[Buggisch, W. & Mann, U. 2004. Carbon isotope stratigraphy of Lochkovian to Eifelian limestones from the Devonian of central and southern Europe. International Journal of Earth Sciences 93, 521–541.10.1007/s00531-004-0407-6]Search in Google Scholar
[Chlupáč, I. 1957. Stratigraficko–paleontologický výzkum břidlic dalejských a vápenců hlubočepských ve středočeském devonu. Věstník Ústředního ústavu geologického 32, 248–258.]Search in Google Scholar
[Chlupáč, I. 1959. Facial development and biostratigraphy of Daleje Shales and Hlubočepy Limestones (Eifelian) in the Devonian of Central Bohemia. Sborník Ústředního ústavu geologického, oddíl geologický 24, 446–511.]Search in Google Scholar
[Chlupáč, I. 1963. Phyllocarid crustaceans from the Silurian and Devonian of Czechoslovakia. Palaeontology 6(1), 97–118.]Search in Google Scholar
[Chlupáč, I. 1970. Phyllocarid crustaceans of the Bohemian Ordovician. Sborník geologických věd, Paleontologie 12, 41–77.]Search in Google Scholar
[Chlupáč, I. 1998. Devonian, 101–133. In Chlupáč, I., Havlíček, V., Kříž, J., Kukal, Z. & Štorch, P. Palaeozoic of the Barrandian (Cambrian to Devonian). Czech Geological Survey, Prague.]Search in Google Scholar
[Chlupáč, I. & Kukal, Z. 1986. Reflection of possible global Devonian events in the Barrandian area, Č.S.S.R. In Walliser, O.H. (ed.) Lecture Note in Earth Sciences, Global Bio-events, 169–179.10.1007/BFb0010202]Search in Google Scholar
[Chlupáč, I. & Kukal, Z. 1988. Possible global events and the stratigraphy of the Palaeozoic of the Barrandian (Cambrian–Middle Devonian, Czechoslovakia). Sborník geologických věd, Geologie 43, 83–146.]Search in Google Scholar
[Chlupáč, I., Lukeš, P. & Zikmundová, J. 1979. The Lower–Middle Devonian boundary beds in the Barrandian area, Czechoslovakia. Geologica et Palaeontologica 13, 125–156.]Search in Google Scholar
[Collette, J.H. & Hagadorn, J.W. 2010. The early evolution of phyllocarid arthropods: phylogeny and systematics of Cambrian–Devonian archaeostracans. Journal of Paleontology 84, 795–820.10.1666/09-092.1]Search in Google Scholar
[Dames, W. 1886. Ueber einige Crustaceen aus den Kreideablagerungen des Libanon. Zeitschrift der Deutschen Geologischen Gesellschaft 38(3), 551–576.]Search in Google Scholar
[Forchielli, A. & Pervesler, P. 2013. Phosphatic cuticule in Thylacocephalans: a taphonomic case study of Austriocaris (Arthropoda, Thylacocephala) from the Fossil-Lagerstätte Polzberg (Reingraben Shales, Carnian, Upper Triassic, Lower Austria). Austrian Journal of Earth Sciences 106, 46–61.]Search in Google Scholar
[Havlíček, V. 1977. Minute Devonian brachiopods (Notanopliidae, Leptostrophiida) in Bohemia. Věstník Ústředního ústavu geologického 52, 299–302.]Search in Google Scholar
[Havlíček, V. & Racheboeuf, P.R. 1979. Chonetacea (Brachiopodes) du Silurien et du Dévonien de Bohême (Tchécoslovaquie). Annales de Paléontologie (Invertébrés) 65, 69–138.]Search in Google Scholar
[House, M.R. 1985. Correlation of mid-palaeozoic ammonoid evolutionary events with global sedimentary perturbations. Nature 313, 17–22.10.1038/313017a0]Search in Google Scholar
[Klapper, G., Ziegler, W. & Mashkova, T. 1978. Conodonts and correlation of Lower–Middle Devonian boundary beds in the Barrandian area of Czechoslovakia. Geologica et Palaeontologica 12, 103–116.]Search in Google Scholar
[Koptíková, L. 2011. Precise position of the Basal Choteč event and evolution of sedimentary environments near the Lower–Middle Devonian boundary: The magnetic susceptibility, gamma– ray spectrometric, lithological, and geochemical record of the Prague Synform (Czech Republic). Palaeogeography, Palaeoclimatology, Palaeoecology 304(1–2), 96–112.10.1016/j.palaeo.2010.10.011]Search in Google Scholar
[Lamsdell, J.C., Briggs, D.E.G., Liu, H.P.,Witzke, B.J. & McKay, R.M. 2015a. A new Ordovician arthropod from the Winneshiek Lagerstätte of Iowa (USA) reveals the ground plan of eurypterids and chasmataspidids. The Science of Nature 102, 1–8.10.7934/P2191]Search in Google Scholar
[Lamsdell, J.C., Briggs, D.E.G., Liu, H.P., Witzke, B.J. & McKay, R.M. 2015b. The oldest described eurypterid: a giant Middle Ordovician (Darriwilian) megalograptid from the Winneshiek Lager-stätte of Iowa. BMC Evolutionary Biology 15, 1–31.10.1186/s12862-015-0443-9]Search in Google Scholar
[Langenstrassen, F. 1972. Fazies und Stratigraphie der Eifel-Stufe im östlichen Sauerland. Göttinger Arbeiten zur Geologie und Paläontologie 12, 106 p.]Search in Google Scholar
[Mergl, M. 2001. Lingulate brachiopods of the Silurian and Devonian of the Barrandian. Acta Musei nationalis Pragae, Series B – Historia Naturalis 57, 1–49.]Search in Google Scholar
[Mergl, M. & Vodrážková, S. 2012. Emsian–Eifelian lingulate brachiopods from the Daleje–Třebotov Formation (Třebotov and Suchomasty limestones) and the Choteč Formation (Choteč and Acanthopyge limestones from the Prague Basin; the Czech Republic). Bulletin of Geosciences 87(2), 315–332.10.3140/bull.geosci.1298]Search in Google Scholar
[Olempska, E. 2012. Morphology and affinities of Eridostracina: Palaeozoic ostracods with moult retention. Hydrobiologia 688, 139–165.10.1007/s10750-011-0659-7]Search in Google Scholar
[Pinna,G., Arduini, P., Pesarini,C. & Teruzzi, G. 1982. Thylacocephala: una nuova classe di crustacei fossili. Atti della Societá Italiana di Scienze Naturali e del Museo Civico di Storia Naturale di Milano 123, 469–482.]Search in Google Scholar
[Roemer, F.A. 1843. Die Versteinerungen des Harzgebirges. Verlag der Hahn’schen Hofbuchhandlung. Hannover. 40 pp.]Search in Google Scholar
[Roer, R. & Dillaman, R. 1984. The structure and calcification of the crustacean cuticle. American Zoology 24, 893–909.10.1093/icb/24.4.893]Search in Google Scholar
[Rolfe, W.D.L. 1983. Form and function in Thylacocephala, Conchyliocarida and Concavicarida (?Crustacea): a problem of interpretation. Transactions of the Royal Society of Edinburgh 76, 391–399.10.1017/S0263593300010609]Search in Google Scholar
[Salter, J.W. 1863. Note on the Skiddaw Slate fossils. Quarterly Journal of the Geological Society London 19, 135–140.10.1144/GSL.JGS.1863.019.01-02.19]Search in Google Scholar
[Schram, F.R., Hof, C.H.J. & Steeman, F.A. 1999. Thylacocephala (Arthropoda: Crustacea?) from the Cretaceous of Lebanon and implications for thylacocephalan systematics. Palaeontology 42, 769–797.10.1111/1475-4983.00097]Search in Google Scholar
[Secretan, S. 1985. Conchyliocarida, a class of fossil crustaceans: relationship to Malacostraca and postulated behaviour. Transactions of the Royal Society of Edinburgh 76, 381–389.10.1017/S0263593300010592]Search in Google Scholar
[Svoboda, J. & Prantl, F. 1947. O stratigrafii a tektonice staršího paleozoika v okolí Třebotova. Sborník Státního geologického ústavu 14, 281–314.]Search in Google Scholar
[Vannier, J., Chen, J.Y., Huang, D.Y., Charbonnier, S. & Wang, X.Q. 2006. The Early Cambrian origin of thylacocephalan arthropods. Acta Palaeontologica Polonica 51, 201–214.]Search in Google Scholar
[Winrow, P. & Sutton, M.D. 2012. Epithelial cell moulds in acrotretoid brachiopods. Historical Biology 24(5), 557–565.10.1080/08912963.2012.657633]Search in Google Scholar
[Zhang, Z., Zhang, Z. & Wang, H. 2016. Epithelial cell moulds preserved in the earliest acrotretid brachiopods from the Cambrian (Series 2) of the Three Gorges area, China. GFF 138(4), 455–466.10.1080/11035897.2016.1143528]Search in Google Scholar